KR101722515B1 - Vertical type sump pump - Google Patents

Abstract

Disclosed is an upright drain pump. According to the present invention, the upright drain pump has an outlet formed on a flange of a cover of a pumping unit positioned on a lower side of a support pipe installed to enclose a rotary shaft of a motor to support the rotary shaft. When lifting the upright drain pump installed in a puddle upwards to remove the upright drain pump, water flowing into the support pipe is discharged to the outside through the outlet formed on the lower side of the support pipe. Therefore, the water flowing into the support pipe is quickly discharged to the outside without remaining in the support pipe. In addition, since the outlet is not formed on the support pipe, stiffness of the support pipe is improved in comparison to a conventional upright drain pump having an outlet formed on the support pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vertical drain pump,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a drain pump for drainage of water in a puddle or the like.

A pump is a device that transports a fluid by the action of pressure. A vertical drain pump is a device installed vertically in a place where natural drainage does not occur, and is a device forcing fluid to be pumped upward and discharged.

When rainwater enters the main facility, it can damage the main facility by rainwater, so it digs a puddle for storing rainwater near the main facility and prevents rainwater from entering the main facility. And the rainwater in the puddle is pumped by using the drainage pump. The drainage pump is not always installed in a puddle, but it is installed in one puddle where the water is pumped. After the water is pumped out, it is removed from the puddle and installed in another puddle where water is accumulated. do.

A conventional drain pump will be described with reference to Fig. 1 is a front view of a conventional drain pump.

As shown, the conventional type drainage pump includes a driving part 10, a pumping part 20 and a supporting part 30. [

The driving unit 10 includes a support housing 11 installed on the ground, and a motor 13 mounted on the upper surface of the support housing 11 and having a rotation axis.

The pumping part 20 is installed in the puddle and has a case 21 having an inlet port formed therein and a water supply part 23 which is rotatably installed inside the case 21 and which is rotated by the rotation shaft, (Not shown) for discharging the air into the case through a side surface of the case 21 as a rigid body and a cover 25 coupled to the upper surface of the case 21. [ The fluid discharged to the outside of the case (21) by the impeller is discharged to the ground through the discharge pipe (40).

The cover 25 has an engaging plate 25a which is engaged with the upper surface of the case 21 and a plurality of supporting ribs 25b formed on the upper surface of the engaging plate 25a and a supporting rib 25b formed on the upper surface of the supporting rib 25b. And a flange 25c.

The supporting portion 30 is formed at the lower end and the upper end of the supporting pipe 31 and the upper flange 33a and the upper flange 33b respectively coupled to the supporting housing 11 and the flange 25c, And supporting ribs 35a and 35b respectively formed on the lower face of the lower flange 33b and the upper flange 33a and the upper face of the lower flange 33b. A bearing or a bush or the like for supporting the rotation shaft is supported inside the support tube 31.

As described above, the installation and demolition work of the drainage pump of the drainage type occur frequently. When the drain pump is installed in the puddle, water flows into the support pipe (31). As a result, a plurality of discharge holes (31a) for discharging water introduced into the support pipe (31) are formed in the support pipe (31) when the mouthpiece drain pump installed in the sump is removed.

The above-described conventional type drain pump has a disadvantage in that the water introduced into the support pipe 31 can not be discharged quickly during the demolition work. In detail, the lower flange 33b is formed at the lower end of the support pipe 31, so that the discharge hole 31a is formed at the portion of the support pipe 31 above the lower flange 33b. Therefore, the water remaining in the portion of the support tube 31 where the lower flange 33b is formed and the inside of the portion of the support tube 31 below the lower flange 33b can not be quickly discharged to the outside, And the cover 25, and is discharged gradually over a long period of time. As a result, there is a disadvantage that the demolition work can not be performed quickly.

Since the discharge hole 31a is formed in the support pipe 31 supporting the rotary shaft, the rigidity of the support pipe 31 may be reduced.

The prior art related to the mouth type drainage pump is disclosed in Korean Registered Utility Model No. 20-0328865 (Oct. 1, 2003).

It is an object of the present invention to provide a drainage pump capable of solving all the problems of the prior art as described above.

It is another object of the present invention to provide a drain pump which is capable of promptly discharging the water introduced into the support pipe to the outside during the demolition work, and is capable of rapidly performing demolition work.

It is still another object of the present invention to provide a mouth type drain pump that can prevent the rigidity of a support pipe from being lowered.

According to an aspect of the present invention, there is provided a mouth type drain pump comprising: a motor having a rotation axis; An impeller rotatably installed inside the case and discharging water introduced into the case to the outside of the case while being rotated by the rotation shaft; a coupling plate coupled to an upper surface of the case; A pumping unit having a plurality of support ribs formed on an upper surface thereof and a cover having a flange formed on an upper surface of the support ribs; And a support portion having a lower flange formed on an outer circumferential surface of a lower end portion of the support tube so as to be in contact with the flange, wherein the support pipe includes a support pipe that is installed to surround the rotation shaft protruded toward the impeller, The flange may have a plurality of discharge holes for discharging the water introduced into the support pipe to the outside.

The drain pump according to the present invention includes a discharge hole formed in a flange of a cover of a pumping part located below a support pipe which is installed to surround a rotation shaft of a motor and supports a rotary shaft. Then, when the drain pump is lifted upward to remove the drain pump installed in the sump, the water that has flowed into the support pipe is discharged to the outside through the drain pipe formed on the lower side of the support pipe. Therefore, all the water that has flowed into the inside of the support tube can be effectively discharged to the outside of the support tube quickly, without remaining in the inside of the support tube.

In addition, since the discharge hole is not formed in the support pipe, the rigidity of the support pipe can be improved as compared with the conventional drainage pump in which the discharge hole is formed in the support pipe.

1 is a front view of a conventional drainage pump.
FIG. 2 is a perspective view of a drain pump according to an embodiment of the present invention; FIG.
3 is a sectional view of the main part of Fig. 2;
4 is an enlarged view of the "A" portion of FIG.
5 is an exploded perspective view of the support tube and cover shown in Fig.
6 is a cross-sectional view of a flange and a lower flange of a cover according to another embodiment of the present invention.

It should be noted that, in the specification of the present invention, the same reference numerals as in the drawings denote the same elements, but they are numbered as much as possible even if they are shown in different drawings.

Meanwhile, the meaning of the terms described in the present specification should be understood as follows.

The word " first, "" second," and the like, used to distinguish one element from another, are to be understood to include plural representations unless the context clearly dictates otherwise. The scope of the right should not be limited by these terms.

It should be understood that the terms "comprises" or "having" does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

It should be understood that the term "at least one" includes all possible combinations from one or more related items. For example, the meaning of "at least one of the first item, the second item and the third item" means not only the first item, the second item or the third item, but also the second item and the second item among the first item, Means any combination of items that can be presented from more than one.

It should be understood that the term "and / or" includes all possible combinations from one or more related items. For example, the meaning of "first item, second item and / or third item" may include not only the first item, the second item or the third item but also two of the first item, Means a combination of all items that can be presented from the above.

It is to be understood that when an element is referred to as being "connected or installed" to another element, it may be directly connected or installed with the other element, although other elements may be present in between. On the other hand, when an element is referred to as being "directly connected or installed" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

Hereinafter, a drain pump according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a drain pump according to an embodiment of the present invention, and FIG. 3 is a sectional view of the main part of FIG.

As shown in the figure, the drain pump according to the present embodiment may include a driving unit 110, a pumping unit 130, and a supporting unit 150, and may be installed in a rainwater pool, Then, it can be removed from the pool.

The driving unit 110 may include a support plate 111 mounted on the surface of the sump and a support housing 113 mounted on the upper surface of the support plate 111 and a motor 115 coupled to the upper surface of the support housing 113 have. The motor 115 includes a rotating shaft 115a and the rotating shaft 115a may extend through the supporting housing 113 to the impeller 133 of the pumping unit 130, which will be described later, installed in the sump.

When a plurality of sewage drainage pumps are installed in one puddle, a separate lid plate 117 may be provided on the ground, and a pedestal 111 may be provided on the upper surface of the lid plate 117. Inside the support housing 113, a bearing for supporting the rotation shaft 115a may be provided.

The pumping part 130 may be installed in a lower part of the sump and may include a case 131, an impeller 133 and a cover 135.

The upper surface of the case 131 may be opened, and the lower surface may be formed with an inlet through which water is introduced. At this time, a strainer 132 for filtering foreign matters may be installed in the inlet.

The impeller 133 may be rotatably installed inside the case 131 and may be connected to the lower end of the rotating shaft 115a and rotated by the rotating shaft 115a. The water in the sump that has flowed into the case 131 through the inlet of the case 131 is forced out of the side surface of the case 131 by the rotation of the impeller 133. The water discharged to the outside of the case 131 is discharged to the upper side of the paper through the discharge pipe 140.

The cover 135 can seal the open upper surface of the case 131. The cover 135 includes a coupling plate 136 coupled to the open top surface of the case 131, a plurality of support ribs 137 radially formed on the upper surface of the coupling plate 136, And a flange 138 formed on an upper surface of the flange 138.

The support portion 150 can support the rotary shaft 115a while having the support pipe 151, the lower flange 153, the upper flange 155, and the support module 159.

The support pipe 151 may be installed to surround a portion of the rotary shaft 115a between the support plate 111 and the flange 138. [ The lower flange 153 and the upper flange 155 may be respectively formed on the outer circumferential surface of the lower end portion and the outer circumferential surface of the upper end portion of the support pipe 151 and may be respectively in contact with the flange 138 and the support plate 111. At this time, the rigidity of the support pipe 151, the lower flange 153 and the upper flange 155 is reinforced, and the strength of the coupling between the lower flange 153 and the flange 138 and the coupling strength between the upper flange 155 and the support plate 111, Supporting ribs 157a and 157b may be formed on the lower surface of the lower flange 153 and on the lower surface of the upper flange 155, respectively. It is a matter of course that one side of the support ribs 157a and 157b is also coupled to the outer peripheral surface of the support tube 151. [

The support module 159 may be installed inside the support tube 151 to support the rotary shaft 115a and may be provided with a bearing or a bush. At this time, part of the water discharged through the discharge pipe 140 may be branched and supplied to the supporting module 159 side. Water supplied to the support module 159 forms a water film to help the rotation shaft 115a rotate smoothly.

When the drain type drainage pump is installed in the puddle, water flows into the support pipe 151. In addition, installation and demolition work frequently occur in the drain type drainage pump. Therefore, when dismounting the sewage drain pump installed in the puddle, the water inside the support pipe 151 must be quickly discharged to promptly carry out the demolition work.

The drain pump according to the present embodiment is configured to rapidly discharge the water inside the support pipe 151, which will be described with reference to Figs. 2 to 5. Fig. FIG. 4 is an enlarged view of the "A" part of FIG. 3, and FIG. 5 is an exploded perspective view of the support tube and cover shown in FIG.

As shown in the figure, the drain pump according to the present embodiment includes a discharge hole 138a for discharging the water introduced into the support pipe 151 to the outside of the support pipe 151, Can be formed on the flange 138 of the cover 135, which is located on the lower side.

More specifically, the inner diameter d1 of the flange 138 may be formed to be smaller than the inner diameter d2 of the support pipe 151 so that the inner circumferential surface of the flange 138 is located inside the inner circumferential surface of the support pipe 151 And the lower end surface of the support pipe 151 can be positioned higher than the lower surface of the lower flange 153. Then, the inner circumferential surface side of the flange 138 does not contact the lower flange 153 and the support pipe 151. At this time, when the discharge hole 138a is formed in the portion of the flange 138 which does not contact the lower flange 153 and the support pipe 151, water introduced into the support pipe 151 flows into the discharge hole 138a, To the outside of the support pipe 151. [

It is a matter of course that the discharge hole 138a is formed at the portion of the flange 138 between the support rib 137 and the support rib 137. [

A stepped surface 153a recessed upward can be formed at the lower end of the inner peripheral surface of the lower flange 153 so that the flange 138 and the lower flange 153 can be more stably engaged. The end surface 153a may include a horizontal surface 153ab parallel to the vertical surface 153aa perpendicular to the lower surface of the lower flange 153 with reference to the lower surface of the lower flange 153. [ The upper surface of the flange 138 on the inner circumferential surface side may be formed with a protruding surface 138b which protrudes upward and whose outer surface contacts the vertical surface 153aa. The flange 138 and the lower flange 153 are then more stably supported by the outer surface of the projecting surface 138b of the mutually contacting flange 138 and the vertical surface 153aa of the end surface 153a of the lower flange 153 Can be combined.

At this time, the upper surface of the projecting surface 138b may be spaced apart from the horizontal surface 153ab, and a discharge hole 138a may be formed in a portion of the projecting surface 138b opposite to the horizontal surface 153ab. The water introduced into the support tube 151 flows into the space formed by the end surface 153 that does not contact the protruding surface 138b and flows into the discharge hole 138a, As shown in FIG.

The discharge hole 138a may be formed parallel to the longitudinal direction of the support pipe 151. [

The drain pump according to the present embodiment is installed in a manner to enclose the rotating shaft 115a of the motor 115 and includes a cover (not shown) of the pumping part 130 located below the supporting pipe 151 supporting the rotating shaft 115a And a discharge hole 138a is formed in the flange 138 of the discharge port 135. [ Therefore, when the drain pump according to the present embodiment is lifted upward to remove the drain pump according to the present embodiment installed in the puddle, the water introduced into the support pipe 151 flows into the drain pipe of the support pipe 151 And is discharged to the outside through the discharge hole 138a formed in the lower side. Therefore, all the water that has flowed into the inside of the support tube 151 can be quickly discharged to the outside of the support tube 151 without remaining in the inside of the support tube 151.

Since the discharge hole 138a is not formed in the support pipe 151, the rigidity of the support pipe 151 is improved as compared with the conventional drain pump in which the discharge hole is formed in the support pipe.

6 is a sectional view of a flange and a lower flange of a cover according to another embodiment of the present invention, and only the difference from FIG. 4 is described.

As shown in the drawing, the discharge hole 238a may be formed to be inclined with respect to the longitudinal direction of the support pipe 251. [

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Will be clear to those who have knowledge of. Therefore, the scope of the present invention is defined by the appended claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be interpreted as being included in the scope of the present invention.

115: Motor
115a:
135: cover
138: Flange
138a: Exhaust hole
151: Support tube
153: Lower flange

Claims (5)

A motor having a rotary shaft;
An impeller rotatably installed inside the case and discharging water introduced into the case to the outside of the case while being rotated by the rotation shaft; a coupling plate coupled to an upper surface of the case; A pumping unit having a plurality of support ribs formed on an upper surface thereof and a cover having a flange formed on an upper surface of the support ribs;
And a support portion having a lower flange formed on an outer circumferential surface of a lower end portion of the support tube so as to be in contact with the flange, wherein the support flange is formed to surround the rotation shaft projected toward the impeller,
Wherein an inner diameter of the flange is smaller than an inner diameter of the support tube,
The lower end surface of the support pipe is located higher than the lower surface of the lower flange,
And a plurality of discharge holes for discharging the water introduced into the support pipe to the outside are formed in the flange portion that is not in contact with the lower flange. The method according to claim 1,
A lower surface of the lower flange is formed with a lower surface having a horizontal surface horizontal to the vertical surface perpendicular to the lower surface of the lower flange with respect to a lower surface of the lower flange,
And a protruding surface protruding upward from the inner circumferential surface of the flange and having an outer surface contacting the vertical surface is formed,
The upper surface of the projecting surface and the horizontal surface are spaced apart from each other,
And the discharge hole is formed in a portion of the projecting surface facing the horizontal surface. 3. The method according to claim 1 or 2,
And the discharge hole is formed parallel to the longitudinal direction of the support pipe. 3. The method according to claim 1 or 2,
Wherein the discharge hole is formed to be inclined with respect to the longitudinal direction of the support pipe. delete

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